Exponential stability result of thermoelastic laminated beam with microtemperatures and without thermal conductivity
In this work, we consider a thermoelastic laminated beam system with
microtemperature effects in case of zero thermal conductivity. We prove that the
dissipation due to the microtemperatures along with structural damping is strong
enough to exponentially stabilize the system irrespective of the wave speeds of the
system or any other condition between the system’s coefficients. This result is new
and improves earlier results in the literature.
This paper is concerned with the long-time dynamics of the model
of a laminated Timoshenko beam, which is a structure given by two-layered
beams with structural damping as a result of an…
In this work, we consider a thermoelastic laminated beam system with
microtemperature effects in case of zero thermal conductivity. We prove that the
dissipation due to the microtemperatures…
This paper addresses the global existence and asymptotic behavior of solutions to a logarithmic wave equation posed in a bounded domain and incorporating strong damping, a fractional time…